Microscopic Dynamics of Hard Ellipsoids in their Liquid and Glassy Phase
Abstract
To investigate the influence of orientational degrees of freedom onto the dynamics of molecular systems in its supercooled and glassy regime we have solved numerically the mode-coupling equations for hard ellipsoids of revolution. For a wide range of volume fractions φ and aspect ratios x0 we find an orientational peak in the center of mass spectra 000''(q,ω) and φ000'' (q,ω) about one decade below a high frequency peak. This orientational peak is the counterpart of a peak appearing in the quadrupolar spectra 22m''(q,ω) and φ22m''(q,ω). The latter peak is almost insensitive on φ for x0 close to one, i.e. for weak steric hindrance, and broadens strongly with increasing x0. Deep in the glass we find an additional peak between the orientational and the high frequency peak. We have evidence that this intermediate peak is the result of a coupling between modes with l=0 and l=2, due to the nondiagonality of the static correlators.
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